KR101524666B1 - Riser Holding Apparatus for Offshore Structure - Google Patents

Abstract

Disclosed is a riser holding apparatus for an offshore structure. According to an embodiment of the present invention, a riser holding apparatus for an offshore structure comprises: a riser holder which moves along an outer circumferential surface of a riser while covering the riser of an offshore structure; a winch installed in the offshore structure; a first wire connecting the winch with the riser holder; a roller installed between the moon pool of the offshore structure and the winch; and a second wire which connects the winch, the roller, and the riser holder with each other and moves the riser holder upwards. The riser holding apparatus may secure stability of the riser which drills submarine resources, and prevent the riser from being bent due to ocean currents.

Description

[0001] Riser Holding Apparatus for Offshore Structure [0002]

And more particularly to a riser holding apparatus for a sea structure for preventing a riser descended from a marine structure to a seabed surface from being bent and broken by currents.

Recently, interest in marine resources is increasing due to high oil prices and depletion of land resources. As a result, there is an increasing demand for offshore structures with work facilities capable of harvesting marine resources.

FIG. 1 is a view showing a maritime structure in operation on the ocean.

In general, the conventional submarine drilling has been mainly used as a rig ship or a fixed platform which is salvaged by another tugboat and performs submarine drilling with anchorage at a specific point in the sea using a mooring device. However, recently, As described above, a so-called drillship is being developed, which is equipped with advanced drilling equipment and constructed in the same form as a general ship so that it can navigate with its own power.

In addition to drilling rigs for drilling crude oil, a submarine resource mining vessel 10 for mining undersea mining is provided with a Derrick and a Moon Pool and is provided with a riser 11, Elevates submarine mineral from the surface.

When the size of the mineral such as the seabed hydrothermal deposit is large, the diameter of such a riser 11 also becomes large in order to enhance such mineral. When the diameter of the riser 11 is increased, the area in contact with the seawater is increased, and the riser is influenced by the flow of seawater.

Particularly, when the riser is made of steel, there is a fear that the riser 11 is bent or broken by the flow of seawater. In addition, the curved riser also causes malfunction of the light pump to enhance the mineral. When the riser 11 is broken, an impact is transmitted to the riser 11 and the submarine resource exploitation vessel 10, which affects the stability of the submarine resource exploitation vessel.

Korean Patent No. 10-1138756

The present application aims at securing the stability of a riser for drilling a seabed resource, and is intended to provide a riser holding apparatus for a marine structure for preventing a riser from being bent by a flow of an ocean current.

The task of the present application is not limited to the above-mentioned problems, and another task which is not mentioned can be clearly understood by a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a watercraft comprising: a riser holder which moves along an outer circumferential surface of a riser while surrounding a riser of an offshore structure; a winch installed on the sea structure; a first wire connecting the winch and the riser holder; And a second wire connecting the winch, the roller, and the riser holder, and moving the riser holder in an upward direction, may be provided.

In addition, the winch may include a clutch that includes a rotation driving unit for providing a rotational force, and includes a first protrusion and a second protrusion on both sides of the clutch, the first winch being connected to the first wire, And a second drum portion connected to the second wire and including a second accommodating portion inserted into the second protruding portion.

The first drum portion or the second drum portion is coupled to the clutch and is connected to the first wire or the second wire. The drum body portion rotates to support the drum body portion. And a drum driving unit having the drum moving part and the drum moving part moving in a direction parallel to the rotation axis of the drum and providing a driving force to the drum moving part.

In addition, the riser holding device of the marine structure may further include a load cell provided on the winch and measuring a tension acting on the first wire.

The riser holding apparatus may further include a controller for electrically receiving the measured value of the load cell and controlling the operation of the winch.

In the riser holding apparatus for a marine structure according to an embodiment of the present invention, when the riser descended toward the sea floor is bent by the current, the riser holder is lowered using the second wire connected to the winch, The tension can be applied to the riser in a direction opposite to the direction of the current flow.

Thereby, it is possible to prevent the riser from being bent by the current flow.

The winch further includes a first drum portion connected to the first wire, a second drum portion connected to the second wire, and a clutch connected to the first drum portion and the second drum portion, respectively, It is possible to operate each of the first wire and the second wire using one winch without using a separate winch to wind the wire.

Further, since the load cell is provided on the winch, the degree of warping of the riser can be confirmed by sensing the tension applied to the riser.

FIG. 1 is a view showing a maritime structure in operation on the ocean.
2 is a perspective view showing a riser holding apparatus for a sea structure according to an embodiment of the present invention.
Figure 3 is a more detailed view of the winch of Figure 2;
Fig. 4 is a view showing the operation of the winch of Fig. 3; Fig.
5 is a view showing a state where the winch of FIG. 2 is disposed.
Figure 6 is a more detailed view of the riser holder of Figure 2;

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

In describing the embodiments of the present invention, it is to be noted that components having the same function are denoted by the same names and numerals, but are substantially not identical to those of the conventional device.

Also, the terms used in the present application are used only to describe certain embodiments and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

2 is a perspective view showing a riser holding apparatus for a sea structure according to an embodiment of the present invention.

Here, the offshore structure 10 may be a vessel for drilling crude oil at sea or mining submarine mineral. The marine structure 10 may include a Moon Pool (M) passing through the center of the hull and a riser (Riser) vertically lowered toward the sea floor through the door pool.

2, a riser holding apparatus for a marine structure according to an embodiment of the present invention includes a riser holder 110, a winch 200, a first wire 310, a roller 400 and a second wire 320, . ≪ / RTI >

The riser holder 110 may be moved along the outer circumferential surface of the riser R while surrounding the riser R of the marine structure 10. [ That is, a through hole may be formed at the center of the riser holder 110 so that the riser R is moved.

The riser holder 110 may include a fixing portion (not shown) for fixing the riser holder 110 outside the riser R, although not shown in the drawing.

The winch 200 may be installed in the sea structure 10, and the winch 200 may be plural. The plurality of winches 200 may be disposed symmetrically with respect to the center of the door frame M, The winch 200 can wind or wind the first wire 310 or the second wire 320 to be described later. The winch 200 will be described in detail later with reference to the drawings.

The first wire 310 may connect the winch 200 and the riser holder 110. The first wire 310 may have an acute angle? With respect to the riser R. [ Accordingly, when the winch 200 is operated and the first wire 310 is rolled up, the riser holder 110 can be moved in the direction in which the winch 200 is installed. That is, the riser holder 110 can be moved in the horizontal direction by the tension of the first wire 310.

The roller 400 may be installed between the door frame M of the sea resisting structure 10 and the winch 200. The roller 400 may be installed in a vertical direction from a riser holder 110 provided outside the riser R. [

The second wire 320 may be sequentially connected to the winch 200, the roller 400, and the riser holder 110. That is, the second wire 320 may be installed parallel to the riser R by connecting the winch 200 and the riser holder 110 via the roller 400.

Accordingly, the second wire 320 can move the riser holder 110 upward by the operation of the winch 200.

Next, a method of operating the riser holding apparatus of the sea structure according to the present embodiment will be described.

When the riser R is bent by the flow of seawater, the winch 200 is operated to release the first wire 310. The second wire 320 is released by operating the winch 200 to move the riser holder 110 to a region where the riser R is bent. Here, the region where the riser R is bent may be a portion where the riser R is bent and protruded.

2, the winch 200 installed in a direction opposite to the protruded portion of the riser R among the plurality of winches 200 is operated to wind up the first wire 310 .

Accordingly, the tension applied to the first wire 310 is transmitted to the riser R through the riser holder 110. That is, the first wire 310 can be returned to the original shape of the riser R by applying a force in a direction opposite to the bent protruding portion of the riser R.

As described above, the riser holding apparatus according to the present embodiment can quickly move the riser holder 110 to a specific position of the riser R by using the second wire 320.

In addition, the bent portion of the riser R can be returned to its original shape by using the first wire 310, so that the riser R can be prevented from being damaged by the current flow.

Figure 3 is a more detailed view of the winch of Figure 2; The winch 200 according to the present embodiment may include the clutch 230, the first drum portion 210, and the second drum portion 220.

The clutch 230 includes a first protrusion 231 and a second protrusion 232 formed on both sides thereof and a rotation drive unit 233 for providing a rotational force to rotate the first protrusion 231 and the second protrusion 232, . ≪ / RTI > The rotation driving unit 233 may be a motor.

The first protrusion 231 and the second protrusion 232 can be rotated along the same axis by one rotation driving unit 233. [

The first drum portion 210 may include a first receiving portion 211 connected to the first wire 310 and inserted into the first protrusion 231. The first receiving portion 211 of the first drum portion 210 may be engaged with the first protruding portion 231 and rotated integrally with the first protruding portion 231. Accordingly, the first drum unit 210 can wind or wind the first wire 310 by the rotation of the clutch 230.

The second drum portion 220 may include a second receiving portion 221 connected to the second wire 320 and inserted into the second protrusion 232. The second receiving portion 221 of the second drum portion 210 may be engaged with the second protrusion 232 to rotate integrally with the second protrusion 232. Accordingly, the second drum unit 220 can wind or wind the second wire 320 by the rotation of the clutch 230.

As such, the winch 200 according to the present embodiment can be engaged or disengaged from the clutch 230 by the first drum portion 210 or the second drum portion 220, The first wire 310 and the second wire 320 can be operated using the second wire 233, respectively.

The first drum unit 210 may include a drum body 212, a drum moving unit 214, and a drum driving unit 216. The drum body 212 is coupled to the clutch 230 and may be connected to the first wire 310.

The drum moving part 214 can support the drum body part 212 to rotate. Both sides of the drum moving part 214 are held in contact with the outer circumferential surface of the drum body part 212 and the drum moving part 214 is rotated by the drum body part 212 to lift the first wire 310 Or a space for winding.

The drum moving part 214 can move the drum body part 212 in a direction parallel to the rotation axis of the clutch 230. [ Wheels 215 may be provided on both sides of the drum moving part 214. That is, the drum moving part 214 allows the drum body part 212 to be coupled to or separated from the clutch 230 with the drum body part 212 mounted thereon.

The drum driving unit 216 may be provided in the drum moving unit 214 to provide a driving force to the drum moving unit 214. The drum driving unit 216 may be a motor and the drum driving unit 216 may rotate the rotating shaft connected to the wheel 215 of the drum moving unit in one direction or another direction.

The second drum part 220 may include a drum body part, a drum moving part, and a drum driving part connected to the second wire 320. The drum body portion, the drum moving portion, and the drum driving portion of the second drum portion 220 are similar to those of the first drum portion 210 described above, so a detailed description thereof will be omitted.

Fig. 4 is a view showing the operation of the winch of Fig. 3; Fig. The operation principle of the winch applied to the present embodiment will be described with reference to FIG.

4, when the second wire 320 is lifted or rewound without operating the first wire 310, the second drum unit 220 may be coupled to the clutch 230, Lt; / RTI >

Conversely, when the first wire 310 is lifted or rewound without operating the second wire 320, the second drum unit 220 coupled to the clutch 230 is moved, And the two drum portions 220 are separated from the clutch 230. Then, the first drum unit 210 is moved and coupled to the clutch 230.

When the first wire 310 and the second wire 320 are simultaneously operated, the first drum unit 210 and the second drum unit 220 are coupled to the clutch 230.

As described above, the riser holding apparatus according to the present embodiment is configured such that the first and second drums 210 and 220 are coupled to or separated from the clutch 230, And the second wire 320 are used as a single winch, the space occupied by the winch in the hull can be reduced.

Fig. 5 is a view showing the winch of Fig. 2, and Fig. 6 is a view showing the riser holder of Fig. 2 in more detail. Referring to Figs. 5 and 6, a plurality of winches may be applied to the present embodiment. In addition, the plurality of winches may be arranged symmetrically with respect to the door frame. Accordingly, a plurality of the first wires 310 and the second wires 320 connected to the plurality of winches may also be provided.

As shown in FIG. 6, the first wires 310 and the second wires 320 are four in number, respectively, so that the riser holder 110 can be tensioned in four directions.

In addition, the riser holding apparatus of the present invention may further include a load cell 510 and a control unit 520.

The load cell 510 may be provided in the winch 200. The load cell 510 may be mounted on the drum moving part 214 of the winch 200 so as to measure a pressure of the drum moving part 212 by the drum moving part 212. This pressure corresponds to the tensile force acting on the first wire 310, and consequently the tensile force acting on the first wire 310 can be measured. However, the position where the load cell 510 is installed is not limited thereto, and the first wire 310 may be disposed at various positions to measure the tension of the first wire 310.

The control unit 520 can electrically control the operation of the winch 200 by electrically receiving the measured value of the load cell 510. When the riser R is bent in one direction by the flow of seawater, the drum body portion 212 presses the drum moving portion 214 by increasing the tension of the first wire 310. Accordingly, at least one of the load cells 510 installed in each of the plurality of winches 200 measures the pressure value generated by the drum body portion 2120 pressing the drum moving portion 214.

The measured value is transmitted to the control unit 520 by the load cell 510 so that the winch 200 provided in the load cell 510 can be operated to hoist or wind it.

Accordingly, the riser R bent in one direction by the seawater can be returned to its original shape by the first wire 310.

On the other hand, when the measured value reaches a threshold value, that is, the riser R is bent to block the inside of the riser R or to break the riser R itself, The operation of the riser pump (not shown) provided in the riser R may be stopped to stop the operation of the rescue system and the warning signal may be transmitted to the bridge (not shown) of the rescue structure.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. . Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

110: riser holder 200: winch
210: first drum portion 211: first receiving portion
212: drum body part 214:
216: drum driving part 220: second drum part
221: second receiving portion 230: clutch
231: first protrusion 232: second protrusion
233: rotation driving part 310: first wire
320: second wire 400: roller
510: load cell 520: control unit

Claims (5)

A riser holder which is moved along the outer peripheral surface of the riser while surrounding the riser of the marine structure;
A winch installed on the marine structure;
A first wire connecting the winch and the riser holder;
A roller installed between the door of the floating structure and the winch; And
And a second wire connecting the winch, the roller and the riser holder, and moving the riser holder in an upward direction. The method according to claim 1,
The winch
A clutch having a first protrusion and a second protrusion formed on both sides thereof and a rotation driving unit for providing a rotational force to rotate the first protrusion and the second protrusion;
A first drum portion connected to the first wire and including a first accommodating portion inserted into the first protrusion; And
And a second drum portion connected to the second wire and including a second accommodating portion inserted into the second protruding portion. 3. The method of claim 2,
The first drum portion or the second drum portion
A drum body coupled to the clutch and connected to the first wire or the second wire;
A drum moving part for supporting the drum body part to rotate and moving the drum body part in a direction parallel to a rotation axis of the clutch; And
And a drum driving part provided on the drum part to provide a driving force to the drum part. The method according to claim 1,
And a load cell provided on the winch for measuring a tension acting on the first wire. 5. The method of claim 4,
And a control unit electrically receiving the measured value of the load cell to control the operation of the winch.

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